blob: 052547a436217ac80008d6e5ea445d2158723612 [file] [log] [blame]
/* Copyright 2016 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "internal.h"
#include "task.h"
#include "registers.h"
#define DMEM_NUM_WORDS 1024
#define IMEM_NUM_WORDS 1024
static struct mutex dcrypto_mutex;
static volatile task_id_t my_task_id;
static int dcrypto_is_initialized;
void dcrypto_init_and_lock(void)
{
int i;
volatile uint32_t *ptr;
mutex_lock(&dcrypto_mutex);
my_task_id = task_get_current();
if (dcrypto_is_initialized)
return;
/* Enable PMU. */
REG_WRITE_MLV(GR_PMU_PERICLKSET0, GC_PMU_PERICLKSET0_DCRYPTO0_CLK_MASK,
GC_PMU_PERICLKSET0_DCRYPTO0_CLK_LSB, 1);
/* Reset. */
REG_WRITE_MLV(GR_PMU_RST0, GC_PMU_RST0_DCRYPTO0_MASK,
GC_PMU_RST0_DCRYPTO0_LSB, 0);
/* Turn off random nops (which are enabled by default). */
GWRITE_FIELD(CRYPTO, RAND_STALL_CTL, STALL_EN, 0);
/* Configure random nop percentage at 6%. */
GWRITE_FIELD(CRYPTO, RAND_STALL_CTL, FREQ, 3);
/* Now turn on random nops. */
GWRITE_FIELD(CRYPTO, RAND_STALL_CTL, STALL_EN, 1);
/* Initialize DMEM. */
ptr = GREG32_ADDR(CRYPTO, DMEM_DUMMY);
for (i = 0; i < DMEM_NUM_WORDS; ++i)
*ptr++ = 0xdddddddd;
/* Initialize IMEM. */
ptr = GREG32_ADDR(CRYPTO, IMEM_DUMMY);
for (i = 0; i < IMEM_NUM_WORDS; ++i)
*ptr++ = 0xdddddddd;
GREG32(CRYPTO, INT_STATE) = -1; /* Reset all the status bits. */
GREG32(CRYPTO, INT_ENABLE) = -1; /* Enable all status bits. */
task_enable_irq(GC_IRQNUM_CRYPTO0_HOST_CMD_DONE_INT);
/* Reset. */
GREG32(CRYPTO, CONTROL) = 1;
GREG32(CRYPTO, CONTROL) = 0;
dcrypto_is_initialized = 1;
}
void dcrypto_unlock(void)
{
mutex_unlock(&dcrypto_mutex);
}
#ifndef DCRYPTO_CALL_TIMEOUT_US
#define DCRYPTO_CALL_TIMEOUT_US (700 * 1000)
#endif
/*
* When running on Cr50 this event belongs in the TPM task event space. Make
* sure there is no collision with events defined in ./common/tpm_regsters.c.
*/
#define TASK_EVENT_DCRYPTO_DONE TASK_EVENT_CUSTOM_BIT(0)
uint32_t dcrypto_call(uint32_t adr)
{
uint32_t event;
do {
/* Reset all the status bits. */
GREG32(CRYPTO, INT_STATE) = -1;
} while (GREG32(CRYPTO, INT_STATE) & 3);
GREG32(CRYPTO, HOST_CMD) = 0x08000000 + adr; /* Call imem:adr. */
event = task_wait_event_mask(TASK_EVENT_DCRYPTO_DONE,
DCRYPTO_CALL_TIMEOUT_US);
/* TODO(ngm): switch return value to an enum. */
switch (event) {
case TASK_EVENT_DCRYPTO_DONE:
return 0;
default:
return 1;
}
}
void __keep dcrypto_done_interrupt(void)
{
GREG32(CRYPTO, INT_STATE) = GC_CRYPTO_INT_STATE_HOST_CMD_DONE_MASK;
task_clear_pending_irq(GC_IRQNUM_CRYPTO0_HOST_CMD_DONE_INT);
task_set_event(my_task_id, TASK_EVENT_DCRYPTO_DONE, 0);
}
DECLARE_IRQ(GC_IRQNUM_CRYPTO0_HOST_CMD_DONE_INT, dcrypto_done_interrupt, 1);
void dcrypto_imem_load(size_t offset, const uint32_t *opcodes,
size_t n_opcodes)
{
size_t i;
volatile uint32_t *ptr = GREG32_ADDR(CRYPTO, IMEM_DUMMY);
ptr += offset;
/* Check first word and copy all only if different. */
if (ptr[0] != opcodes[0]) {
for (i = 0; i < n_opcodes; ++i)
ptr[i] = opcodes[i];
}
}
uint32_t dcrypto_dmem_load(size_t offset, const void *words, size_t n_words)
{
size_t i;
volatile uint32_t *ptr = GREG32_ADDR(CRYPTO, DMEM_DUMMY);
const uint32_t *src = (const uint32_t *) words;
struct access_helper *word_accessor = (struct access_helper *) src;
uint32_t diff = 0;
ptr += offset * 8; /* Offset is in 256 bit addresses. */
for (i = 0; i < n_words; ++i) {
/*
* The implementation of memcpy makes unaligned writes if src
* is unaligned. DMEM on the other hand requires writes to be
* aligned, so do a word-by-word copy manually here.
*/
uint32_t v = word_accessor[i].udata;
diff |= (ptr[i] ^ v);
ptr[i] = v;
}
return diff;
}